参数资料
| 型号: | EL7583IR |
| 厂商: | Intersil |
| 文件页数: | 10/16页 |
| 文件大小: | 0K |
| 描述: | IC CONV DC/DC 3-CHAN 20-TSSOP |
| 标准包装: | 74 |
| 应用: | 转换器,TFT,LCD |
| 输入电压: | 2.7 V ~ 14 V |
| 输出数: | 2 |
| 输出电压: | 5 V ~ 17 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 20-TSSOP(0.173",4.40mm 宽) |
| 供应商设备封装: | 20-TSSOP |
| 包装: | 管件 |
��
�
�EL7583�
�The� following� table� gives� typical� values:�
�(Margins� are� considered� 10%,� 3%,� 20%,� 10%,� and� 15%� on�
�V� IN� ,� V� O� ,� L,� F� S� ,� and� I� LMT� ,� respectively)�
�TABLE� 1.� MAXIMUM� CONTINUOUS� OUTPUT� CURRENT�
�A� 1nF� compensation� capacitor� across� the� feedback� resistor�
�to� ground� is� recommended� to� keep� the� converter� in� stable�
�operation� at� low� output� current� and� high� frequency�
�conditions.�
�V� IN� (V)�
�3.3�
�3.3�
�3.3�
�5�
�5�
�5�
�12�
�V� O� (V)�
�9�
�12�
�15�
�9�
�12�
�15�
�18�
�L� (μH)�
�10�
�10�
�10�
�10�
�10�
�10�
�10�
�F� S� (kHz)�
�1000�
�1000�
�1000�
�1000�
�1000�
�1000�
�1000�
�I� OMAX� (mA)�
�430�
�320�
�250�
�650�
�470�
�370�
�830�
�Schottky� Diode�
�Speed,� forward� voltage� drop,� and� reverse� current� are� the�
�three� most� critical� specifications� for� selecting� the� Schottky�
�diode.� The� entire� output� current� flows� through� the� diode,� so�
�the� diode� average� current� is� the� same� as� the� average� load�
�current� and� the� peak� current� is� the� same� as� the� inductor�
�peak� current.� When� selecting� the� diode,� one� must� consider�
�the� forward� voltage� drop� at� the� peak� diode� current.� On� the�
�Elantec� demo� board,� MBRM120� is� selected.� Its� forward�
�voltage� drop� is� 450mV� at� 1A� forward� current.�
�Output� Capacitor�
�I� LPK� =� I� LAVG� +� --------� L�
�I� O�
�I� LAVG� =� -------------�
�V� RIPPLE� =� I� LPK� � ESR� +� --------------------------------� � ------------------------------�
�V� C� � FS�
�Component� Considerations�
�Input� Capacitor�
�It� is� recommended� that� C� IN� is� larger� than� 10μF.�
�Theoretically,� the� input� capacitor� has� ripple� current� of� ?� I� L� .�
�Due� to� high-frequency� noise� in� the� circuit,� the� input� current�
�ripple� may� exceed� the� theoretical� value.� Larger� capacitor� will�
�reduce� the� ripple� further.�
�Boost� Inductor�
�The� inductor� has� peak� and� average� current� decided� by:�
�?� I�
�2�
�1-D�
�The� inductor� should� be� chosen� to� be� able� to� handle� this�
�current.� Furthermore,� due� to� the� fixed� internal�
�compensation,� it� is� recommended� that� maximum� inductance�
�The� EL7583� is� specially� compensated� to� be� stable� with�
�capacitors� which� have� a� worst-case� minimum� value� of� 10μF�
�at� the� particular� V� OUT� being� set.� Output� ripple� voltage�
�requirements� also� determine� the� minimum� value� and� the�
�type� of� capacitors.� Output� ripple� voltage� consists� of� two�
�components� -� the� voltage� drop� caused� by� the� switching�
�current� though� the� ESR� of� the� output� capacitor� and� the�
�charging� and� discharging� of� the� output� capacitor:�
�V� OUT� -� V� IN� I� OUT�
�OUT� OUT�
�For� low� ESR� ceramic� capacitors,� the� output� ripple� is�
�dominated� by� the� charging/discharging� of� the� output�
�capacitor.�
�In� addition� to� the� voltage� rating,� the� output� capacitor� should�
�also� be� able� to� handle� the� RMS� current� is� given� by:�
�?�
�?�
�?� I� L�
�(� 1� -� D� )� � ?� D� +� --------------------� � ------� ?� � I� LAVG�
�of� 10μH� and� 15μH� to� be� used� in� the� 5V� and� 12V� or� higher�
�output� voltage,� respectively.�
�The� output� diode� has� average� current� of� I� O� ,� and� peak� current�
�I� CORMS� =�
�?� 2� 12� ?�
�2�
�?� I� LAVG� ?�
�1�
�V� BOOST� =� ---------------------� � V� FBB�
�the� same� as� the� inductor's� peak� current.� Schottky� diode� is�
�recommended� and� it� should� be� able� to� handle� those� currents.�
�Feedback� Resistor� Network�
�An� external� resistor� divider� is� required� to� divide� the� output�
�voltage� down� to� the� nominal� reference� voltage.� Current�
�drawn� by� the� resistor� network� should� be� limited� to� maintain�
�the� overall� converter� efficiency.� The� maximum� value� of� the�
�resistor� network� is� limited� by� the� feedback� input� bias� current�
�and� the� potential� for� noise� being� coupled� into� the� feedback�
�pin.� A� resistor� network� in� the� order� of� 200k� ?� is�
�recommended.� The� boost� converter� output� voltage� is�
�determined� by� the� following� relationship:�
�R� 1� +� R� 2�
�R� 1�
�where� V� FBB� is� 1.300V.�
�10�
�Positive� and� Negative� Charge� Pump� (V� ON� and�
�V� OFF� )�
�The� EL7583� contains� two� independent� charge� pumps� (see�
�charge� pump� block� and� connection� diagram.)� The� negative�
�charge� pump� inverts� the� V� DDN� supply� voltage� and� provides�
�a� regulated� negative� output� voltage.� The� positive� charge�
�pump� doubles� the� V� DDP� supply� voltage� and� provides� a�
�regulated� positive� output� voltage.� The� regulation� of� both� the�
�negative� and� positive� charge� pumps� is� generated� by� the�
�internal� comparator� that� senses� the� output� voltage� and�
�compares� it� with� and� internal� reference.� The� switching�
�frequency� of� the� charge� pump� is� set� to� ?� the� boost� converter�
�switching� frequency.�
�The� pumps� use� pulse� width� modulation� to� adjust� the� pump�
�period,� depending� on� the� load� present.� The� pumps� are� short-�
�circuit� protected� to� 180mA� at� 12V� supply� and� can� provide�
�15mA� to� 60mA� for� 6V� to� 12V� supply.�
�FN7335.5�
�May� 12,� 2006�
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